JP2005279747A - Press machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To iomprove a press machine so that the gnaw of a die and the abnormal wear of a guide means can be prevented. <P>SOLUTION: When no load is applied to a frame 4, a movable part 5 of a slide is slidably guided by a guide means 6, and the movable part 5 of the slide is elevated/lowered at high accuracy depending on the guide accuracy of the guide means 6. When the load is applied to the frame 4, a frame side guide member 7 is separated from a slide side guide member 8 under the elastic deformation of the frame 4, and the frame side guide member 7 increases clearances L<SB>1</SB>, L<SB>2</SB>from the slide side guide member 8. Thus, the slidable guide of the movable part 5 of the slide is not performed by the guide means 6. When the load is applied to the frame 4, operation of the die and the guide means 6 is not mutually corrected by each other, and gnaw of the die and abnormal wear of the guide means 6 can be prevented. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an improvement of a press machine.

  There are press machines for various processing methods such as for powder forming presses, sheet metal presses, and forging presses. Each press machine includes a bed on which the fixed mold is placed, and a slide for moving the movable mold away from the fixed mold. Furthermore, the bed and the slide have a structure in which at least a space necessary for mold changeover is provided, and the bed and the non-movable part of the slide are fixed to each other by a frame. And in order to obtain a highly accurate press product, the movable part of a slide is correctly guided by the guide means in the movable direction, and has the structure which prevents the upper and lower mold | die misalignment at the time of mold clamping. As a configuration of the guide means, a guide member such as a guide plate or a guide rod is fixed to the frame so as to cover the entire movable range of the slide, and the movable portion of the slide is slidably guided by this guide member. Thus, it is common that the position accuracy is guaranteed.

  Now, since the frame of the press machine receives the load generated at the time of pressing, it undergoes some elastic deformation at the time of clamping. Therefore, in order to prevent the elastic deformation of the frame from adversely affecting the forming accuracy of the pressed product, the position of the slide is positively corrected using a hydraulic actuator to ensure the alignment accuracy of the upper die and the lower die. Has been invented (see, for example, Patent Document 1 and Patent Document 2). A technique for obtaining a highly accurate product has also been invented by taking into account the extension of the die frame and the die row accompanying the temperature rise of the press working mold (see, for example, Patent Document 3).

JP-A-5-8092 ([0007], [0008], [0015], FIGS. 1 to 3) JP-A-5-8097 ([0003] to [0015], FIGS. 1 to 3) JP-A-11-57886 ([0006] to [0010], FIGS. 1 to 4)

Now, the conventional press machine basically prevents the misalignment of the mold by the guide means of the slide, improves the accuracy of the press product, and reduces the mold life by preventing the mold from galling. It has a structure to plan. However, if the clearance between the upper and lower molds is made smaller in order to increase the precision of the mold, the load on the frame will no matter how high the guide means is adjusted in the state where the load is not applied to the frame. Due to the elastic deformation of the frame due to the application of a sway, the guide means is misaligned, the guide means and the mold correct each other's operation, and as a result, the mold galling and the guide means abnormal wear Was supposed to trigger.
The present invention has been made in view of the above problems, and the object of the present invention is to reduce the influence of the elastic deformation generated in the frame of the press machine on the alignment of the mold as much as possible. It is to prevent abnormal wear of galling and guide means. Then, the accuracy of the press product is improved and the life of the mold and the guide means is extended.

  In order to solve the above problems, a press machine according to the present invention includes a bed arranged at a predetermined interval and a non-movable part of the slide fixed to each other by a frame arranged so as to surround both, and the slide The movable part is guided in the moving direction by the guide means, the guide means comprises a pair of guide members that are relatively movable in a direction parallel to the moving direction of the movable part of the slide, Of the pair of guide members, one guide member can be elastically deformed so as to receive an elastic deformation of the frame when a load is applied to the frame and to increase a clearance with the other guide member. It is characterized by.

According to the present invention, when no load is applied to the frame, the clearance of the pair of guide members of the guide means does not change, and the movable part of the slide depends on the guide accuracy of the pair of guide members. Guided in the moving direction.
However, when a load is applied to the frame at the time of molding, one of the pair of guide members receives an elastic deformation of the frame when a load is applied to the frame, and the clearance from the other guide member. By elastically deforming so as to increase, the guide of the movable part of the slide by the guide means is not performed. After that, depending on the accuracy of the shape of the mold itself, the centering of the mold until the completion of mold clamping is performed. Therefore, the mold and the guide means do not correct each other's operation.

In the present invention, the pair of guide members includes a frame side guide member fixed to the frame side and a slide side guide member fixed to the slide side, and the frame side guide member is elastically deformed of the frame. Therefore, it is desirable to be elastically deformable.
According to the present invention, when no load is applied to the frame, the clearance between the frame side guide member and the slide side guide member does not change, and the movable portion of the slide depends on the guide accuracy of the guide means. Guided in the moving direction.
However, in a state where a load is applied to the frame, the frame side guide member is elastically deformed so as to increase the clearance with the slide side guide member, so that the guide of the movable portion of the slide is not performed. After that, depending on the accuracy of the shape of the mold itself, the centering of the mold until the completion of mold clamping is performed. Therefore, the mold and the guide means do not correct each other's operation.

Furthermore, as an example of the present invention, the frame-side guide member is directly fixed to the frame, and the slide-side guide member is fixed to a guide holder that extends from the movable portion of the slide to the vicinity of the frame-side guide member. Can be.
According to the present invention, the frame-side guide member is directly elastically deformed by directly receiving the elastic deformation of the frame, and the clearance with the slide-side guide member fixed to the guide holder is increased, so that the slide by the guide means is increased. Guidance of the movable part is not performed. After that, the mold is centered until the mold clamping is completed by the shape of the mold itself. Therefore, the mold and the guide means do not correct each other's operation.

  Since the present invention is configured as described above, it is possible to reduce the influence of the elastic deformation generated in the frame of the press machine on the centering of the mold, and to prevent the mold from being worn and abnormal wear of the guide means. . And it becomes possible to improve the accuracy of the press product and extend the life of the mold and the guide means.

  The best mode for carrying out the present invention will be described below with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, a press machine 1 according to an embodiment of the present invention includes a bed 2 and a non-movable portion 3 of a slide, which are arranged with a space required for at least mold changeover. Are fixed to each other by a frame 4 arranged so as to surround both. Further, the slide movable portion 5 is guided by the guide means 6 in its moving direction.
The guide means 6 is composed of a pair of guide members that can be relatively displaced in a direction parallel to the moving direction of the movable portion 5 of the slide. Specifically, as shown in FIGS. A frame-side guide member 7 to be fixed and a slide-side guide member 8 to be fixed to the movable portion 5 side of the slide are provided.

Here, the frame side guide member 7 is directly fixed to the frame 7. Further, the frame-side guide member 7 has two slide rail portions 7a and 7b that have a total length that can cover the entire movable range of the movable portion 5 of the slide and that are orthogonal to each other. It has.
On the other hand, the slide side guide member 8 includes shoes 8a and 8b that are in sliding contact with the slide rail portions 7a and 7b of the frame side guide member 7. The shoes 8a and 8b are upper and lower end portions of the guide holder 9 (FIG. 1). Reference) is fixed. The guide holder 9 is a member that is fixed to the movable portion 5 of the slide and extends in the vicinity of the frame-side guide member 7 and does not receive a load during mold clamping. In the illustrated example, the guide holder 9 is a plate-shaped component, but may be configured by a frame-shaped component, a rod-shaped component, a tubular component, or the like.

  As is apparent from FIG. 3, the guide means 6 includes a sliding contact surface between the sliding rail portion 7 a of the frame side guide member 7 and the shoe 8 a of the sliding side guide member 8, and a sliding rail of the frame side guide member 7. The slidable contact surface between the portion 7b and the shoe 8b of the slide side guide member 8 is composed of two planes orthogonal to each other. The clearance adjustment of each sliding contact surface is performed in a state where no load is applied to the frame 4 (when there is no load), thereby ensuring high guide accuracy of the slide movable portion 5 when there is no load. .

Now, the operational effects obtained by the embodiment of the present invention having the above-described configuration are as follows. First, in a state where no load is applied to the frame 4, there is no change in the clearance between the frame side guide member 7 and the slide side guide member 8, and the slide movable portion 5 is slid and guided by the guide means 6, and the slide The movable portion 5 moves up and down with high accuracy depending on the guide accuracy of the guide means 6.
However, when a load is applied to the frame (when loaded), the frame 4 is elastically deformed toward the center of the press machine 1 as shown in FIG. At this time, the frame-side guide member 7 directly fixed to the frame 4 undergoes elastic deformation of the frame 4 and elastically deforms itself, and is separated from the slide-side guide member 8. On the other hand, since the slide side guide member 8 is fixed to the guide holder 9 which is a part that does not receive a load during pressing, the slide side guide holder 8 is not deformed even when the frame 4 is loaded. It is maintained in the same shape and position as when loaded. As a result, the frame side guide member 7 increases the clearance with the slide side guide member 8, and the sliding guide of the movable portion 5 of the slide by the guide means 6 is not performed. In FIG. 5, the frame 4 and the frame side guide member 7 at the time of no load are indicated by solid lines, and the frame 4 and the frame side guide member 7 at the time of load are indicated by dotted lines.

As shown in FIG. 5, when the frame 4 is loaded, the clearances L ₁ and L ₂ between the frame side guide member 7 and the slide side guide member 8 increase, and the guide means 6 slides and guides the movable portion 5 of the slide. No longer done. After that, the centering of the mold depends on the accuracy of the shape of the upper mold and the lower mold itself, and until the mold clamping is completed, the mold is accurately aligned depending on the guide accuracy of the mold shape itself. Centering is performed. Therefore, when the frame 4 is loaded, the mold and the guide means 6 do not correct each other's operation, so that it is possible to prevent mold galling and abnormal wear of the guide means 6. It is possible to improve the accuracy of the pressed product while extending the life of the mold and the guide means.

  FIG. 6 shows applied shapes of the frame side guide member 10 and the slide side guide member 11. The frame-side guide member 7 and the slide-side guide member 8 shown in FIGS. 1 to 3 and 5 described above have two sliding surfaces that are orthogonal to each other, but the example shown in FIG. In the frame-side guide member 10 and the slide-side guide member 11, the sliding contact surfaces are configured as a single plane. Even in this case, when the load is applied, the frame-side guide member 10 is elastically deformed so as to increase the clearance with the slide-side guide member 11, so that the sliding guide of the movable portion 5 of the slide by the guide means is performed. The mold and the guide means do not correct each other's operation. Therefore, it is possible to obtain the same effects as the examples of FIGS. 1 to 3 and FIG.

  That is, in order to obtain the operational effect according to the embodiment of the present invention, in the guide means 6, the frame side guide member 7 (10) and the slide side guide member 8 (11) move the movable portion 5 of the slide. The frame-side guide member 7 (10) is elastically deformed in the frame 4 when loaded on the frame 4 with respect to the slide-side guide member 8 (11). It is only necessary to have a configuration in which it is elastically deformed by itself and disposed at a position where the clearance between the frame side guide member 7 (10) and the slide side guide member 8 (11) can be increased.

  FIG. 7 shows a further application example of the example shown in FIG. In this application example, the frame side guide member 10, the slide side guide member 11, and the guide holder 12 are all housed between the frames 4, and the same as the above example while promoting the downsizing of the press machine 1. An effect can be obtained. The downsizing shown in FIG. 7 is an example in which the sliding contact surfaces of the frame side guide member 7 and the slide side guide member are configured by two planes orthogonal to each other as shown in FIGS. It is possible to apply in the same way.

  The embodiments of the present invention can be applied to press machines for various processing methods such as for powder forming presses, sheet metal presses, forging presses, etc. An effect can be obtained.

It is the schematic side view of the press machine which concerns on embodiment of this invention, and both the case where the movable part of a slide is in a top dead center and the case in a bottom dead center is shown on both sides of the centerline C Is. It is a cross-sectional view of the principal part of the press machine shown in FIG. In the cross-sectional view of the main part shown in FIG. 2, the peripheral part of the guide means is shown in an enlarged manner. For the sake of convenience, only half of the press machine is shown in a state where the frame is elastically deformed toward the center of the press machine in a state where a load is applied to the frame of the press machine shown in FIG. FIG. 2 is a schematic cross-sectional view of the press machine in a state where a load is applied to the frame of the press machine shown in FIG. 1. It is a cross-sectional view of a press machine showing an example in which applied shapes of a frame side guide member and a slide side guide member are adopted in the press machine according to the embodiment of the present invention. It is a cross-sectional view of the press machine which shows the further application example of the press machine shown in FIG.

Explanation of symbols

1: Press machine, 2: Bed, 3: Slide non-movable part, 4: Frame, 5: Slide movable part, 6: Guide means, 7, 10: Frame side guide member, 7a, 7b: Slide rail part 8, 11: Slide side guide member, 8a, 8b: Shoe, 9, 12: Guide holder

Claims (3)

A press machine in which a bed arranged at a predetermined interval and a non-movable part of the slide are fixed to each other by a frame arranged so as to surround both, and the movable part of the slide is guided in its moving direction by guide means Because
The guide means includes a pair of guide members relatively movable in a direction parallel to the moving direction of the movable portion of the slide, and one of the pair of guide members applies a load to the frame. The press machine is capable of elastic deformation so as to increase the clearance with the other guide member in response to the elastic deformation of the frame. The pair of guide members includes a frame side guide member fixed to the frame side and a slide side guide member fixed to the movable portion side of the slide, and the frame side guide member receives elastic deformation of the frame. The press machine according to claim 1, wherein the press machine is elastically deformable. The frame-side guide member is directly fixed to the frame, and the slide-side guide member is fixed to a guide holder that extends from a movable portion of the slide to the vicinity of the frame-side guide member. The press machine according to claim 2.

Images